Control of electric motors.



No. 665,l39. Patented Ian. I, l90l.

B. C. SHIPMAN.

CONTROL OF ELECTRIC MOTORS.

(Application filed May 29, 1900.)

(No Model.) 4 Sheets-Sheet WITNESSES mm! rqn THE mums PETERS co, Pam-ammo" wasmum'om o c No. 665,!39. Patented Ian. I, l90l. B. C. SHIPMAN.

CONTROL OF ELECTRIC MOTORS.

(Application filed Kay 29, 1900.) (No Model.) 4 Sheets-Sheet 2.

WITNESSES [NYE/ TOR ATTORNEY.-

THE NORRIS PETERS cc)v PHOTO-LUNG msumoron. u c

No. 665,139. Patented Ian. I, l90l. B. C. SHIPMAN.

CONTROL OF ELECTRIC MOTORS.

(Application filed May 29, X900.) (No Model.) 4 Sheets-Sheet 3.

ua ATTORNEY.

UNITED STATES PATENT OFFICE.

BENNET CARROLL SHIPMAN, OF JOHNSTOVVN, PENNSYLVANIA,-ASSIGNOR TO THE LORAIN STEEL COMPANY, OF PENNSYLVANIA.

CONTROL OF ELECTRIC MOTORS.

SPECIFICATION forming part of Letters Patent No. 665,139, dated January 1-, 1901.

Original application filed August 5, 1899, $crial No. 726,340. Divided and this application filed May 29, 1900. serial No. 18,387.

, (No model.)

To ctZZ whom, it may concern:

Be it known that I, BENNET CARROLL SHIP- MAN, of Johnst-own, in the county of Oambria and State of Pennsylvania, have invented a new and useful Improvement in Control of Electric Motors, of which the following is a full, clear, and exact description, reference being bad to the accompanying drawings, which form a part of this specification.

' This invention has relation to apparatus for the control of electric motors, and is more particularly designed to provide apparatus for use in carrying into effect the system of control described and claimed in my pending application, Serial No. 726,340, of which the present application is a division. 'lhat system, generally described, consists in starting the motors as series motors and changing them over to shunt-motors after they have reached a certain speed. To attain this purpose and yet work the motors practically and with a reasonable efficiency at all times, I provide a motor having different sets of field-windings which in the starting'positions are arranged in multiple with each other and in series with the armatures; but in the positions of higher speed these different field-coils are placed in series with each other and in shunt to the armature. This arrangement makes it possible to provide the proper field excitation without either abnormally increasing the size of the motors or, vice versa, without too much heating of the field-coils at any time, while at the same time the wiring of the field-coils can be arranged so that the motor will be working efficiently whether it is being operated as a series or a shunt motor. With my preferred arrangement I provide a multipolar motor and connect the terminals of each of the coils for the respective poles to my switching apparatus, whereby the coils for the different poles may be all in series when the motor is to be used a shunt-motor, whereas they will be all in multiple when the motor is to be used as a series motor. This, however, is not essential to my invention, as I may attain this purpose by having multiple windings on the same cores, if I desire, and, indeed, this construction may for some forms of motors-as, for example, abipolar motorbe preferable.

As the change of so many connections at different steps of the control system would re-' quire a very large apparatus if constructed in the ordinary manner, my invention further consists in an improved construction of the controller by which I am enabled to make all the necessary changes without providing too heavy an apparatus or putting too much work on the operator, and this portion of my invention resides principally in the provision of a pair of independent field com mutating-switches which are automatically actuated by the regular con trol-switch at a few only of the positions of the latter.

Another part of my invention resides in the provision of means for automatically opening the circuit to the controller when the main circuit is interrupted, and to this end I provide a switch through which the current between the controller and one or other side of the circuit must pass, which switch is held closed by an electromagnet connected to the main circuit. If the main circuit should be interrupted when the motors are being used as sh tint-motors and then become active again before the operator has opened the circuits to the motors, the latter would take an abnormal rush of current, because the field strength of shunt-motors will not build up as rapidly as that of series motors, and thereby produce a counter electromotive force. By the provision of my switch this danger is eliminated and the main circuit is kept open by this switch until the operator turns the controller to the off position, means being provided to automatically close this safety-switch when the controller is at the off position.

Another portion of my invention consists in certain more specific features in reference to the construction, arrangement, and combination of the different parts of my apparatus. The nature of these features will appear more fully hereinafter when describing the detailed arrangement shown in the drawings.

Referring to the drawings, Figure 1 is a front elevation of a controller constructed in accordance with my invention, portions of the same being broken away to more clearly show the novel parts of the apparatus. Fig. 2 is a side elevation of a similar character.

Fig. 3 is an inverted plan view of Fig. l with the base of the controller-casing removed.

Fig. 4: is a plan view of the interlocking and step-by-step device. Fig. 5 is an enlarged view of portions of the field commutatingswitches. Fig. 6 is a vertical section of Fig. 5. Fig. 7 is a diagrammatical representation of the circuits; and Figs. 8110.20, inclusive, are diagram matical representations of the most important of the combinations effected by the operation of the controller.

A represents the controller-casing, parts only of which are shown in the different views, the remainder of the casing being removed to more clearly show the construction of the different switches.

B is the shaft of the ordinary controldrum and is mounted in the usual bearings at the top and bottom of the controller-casing.

0 represents the control-drum, which carries contact-segments which engage with a number of fixed contact-fingers O. The construction of the controller-drum and the contact-fingers is of the usual type and need not be further considered.

B represents the shaft of the reversingswitch. A portion of the drum of the reversing-switch is shown at B in 1 and 2; but this also is of the usual type of construction. The shaft B is mounted in the usual bearings in the top of the controller-casing and is extended from the lower end of the reversing-switch B to a suitable bearing b on the base of the controller-casing. The lower part of this shaft is used to carry loosely mounted upon it the segments D and E of the field commmating-switches with which the contact-fingers d (P, &c., and e 6 &c., engage, respectively. B indicates the interlocking and step-by-step device, which is also of a known type.

The moving portion of the field comm utating-switch D is a segment having secured to it a sleeving-lug D, Fig. 6, which rests upon the top of the bearing-block b. This sleeving-lug supports the segment D thereon, a second sleeving-lug D being provided, which holds the said segment to its proper center. The segment E of the other field commutating-switch has similar sleeving-lugs E and E the former resting on a collar B secured to the sleeving-lug D The field commutating-switches have two positions, and they are moved from one to the other of the operating positions at predetermined positions of the control-drum O, the instrumentalities for offecting this change being as follows: Upon the shaft B of the control-drum is rigidly mounted a gear-wheel F, Figs. 1, 2, and 3, which rotates with the shaft B. This gear F meshes with a smaller gear F, carried by a short shaft f, mounted in a bearing f on the base of the controller-casing. Projecting upwardly and downwardly from the gear F are pins f and f respectively. Projecting from the sleeving-lug D are arms (Z, which are in the line of movement of the pin f and projecting from the sleeving-lug E are arms 6, which are adapted to be engaged by the pin f When the controller is at a predetermined position, pin f engages one of the arms (1, thereby turning the segment D about the shaft 15 as a center, and in order that the movement shall be a quick and positive one I provide a spring g, hearing at one end against the sleeving-lug D and at its other end against a small pivoted block g, Fig. 6, a rod g being connected to the sleeving-lng D and passing through the spring and pivotblock g, the range of movement being limited by a cotter-pin \Vhen the segment D is moved past the center, this spring, against the action of which the pin f at first operates, acts upon the sleevinglug D, so that the segment D is thrown to its extreme position. In other words, the spring will act to either side of a position central to the two operative positions of the switch. In the reverse movement of the control-drum the pin will act upon the second of the arms d to exactly reverse its operation and return segment D to its first position. At an other position of the controller pin f will-act upon one of the arms 6 to actuate the segment E in the same manner and by the aid of the same springconnections as I have just described.

The safety device to which I have referred generally in the first part of this specification consists, essentially, of a switch, an electromagnet energized by the main circuit or a shunt from the main circuit, so as to maintain the switch closed when the magnet is energized, and a part moving with the controlswitch and adapted to close the switch and maintain it closed when the control-switch is at the off position. The preferred form, which I show, (see particularly Figs. 1 and $3,) is constructed as follows: A vessel 11 contains the stationary switch-terminals ll and the moving switch-terminals I1 all of said terminals being preferably immersed in oil H or an equivalent arc-extinguishing material. This vessel 11 is preferably hermetically sealed byanysnitable means. The movable terminals H are carried on the end of a piston 7b, the end of which is in line of movement of a cam H which is movable with the shaft B of the control-switch. This cam IIengages with the end of the piston It only when the controller is at the off position. By this arrangement if the switch automatically opens when the controller is in an operative position it will not be closed until the operator has turned his handle to the off position, and in case of a continued failure of the main circuit it will at once open again as soon as the cam I'll leaves the end of the piston 7L, so that the operators attempt to actuate the motors when the main circuit is still interrupted will do no damage. The means for thus opening the switch when the main circuit is interrupted and the earn [-1 is out of engagement with the piston is a compression-spring h. I is an electromagnet whose energizing-coil is preferably a shunt from the main circuit, as clearly shown in Fig. 7. Whenever this magnet attracts the armature t', it engages the collar 2" 011 the piston 77. when the terminals 11 and H are in engagement. So long, there fore, as the main circuit of the switch is uninterrupted the pivoted armature i will maintain the closure of the switch by overcoming the tendency of the spring 71' to open the same. Many of the ordinary forms of magnetic circuit-breakers may be used in this connection instead of the specific form which I have shown, the novelty in my safety device consisting in its combination with the controlswitch in the manner set forth, so that the latter automatically closes the switch when at the off position, though having no effect upon the switch at any other position.

At J, I have indicated an electromagnetic blow-out, which, however, does not form any part of the presentinvention. This blow-out, as shown, comprises two parallel coils (see Fig. 7) arranged above and below' the first contact-finger c of the control-switch, the arcing on the control-switch when breaking the circuit being concentrated at this point, so as to be acted upon by a strong concentrated magnetic field.

Turning now to Fig. 7, in which such of the parts which I have referred to in previous descriptions as are here shown are marked with the same reference-letters which I have heretofore used, It to 7c", inclusive, represent the contact-points ot' the circuit of the reversing and cut-out switch B would be used at the position go ahead with both motors. This combined reversing and cut-out switch does not differ in principle from that disclosed in the patent to Gustaf Valley, No. 561,839, dated June 9, 1896, and I will therefore not need to describe its construction and operation in detail. Ithas two positions at which both motors may be used, one in the forward direction and one in the reverse direction, while it has four other positions in which one motor alone may be used in an emergency, either in the forward or backward direction. When one motor is cut out, I prefer to use the control-drum only in the first three of its positions and never use the motor a shunt-motor. For the purpose, therefore, of describing the novel features of my apparatus it may be assumed that the fingers m to m, inclusive, are bearing on the line Z of the reversing and cut-out drum, so that the fingers m to m, inclusive, are bearing on the contacts is" to 10 inclusive, the interconnections between the latter contacts being clearly shown on the diagram.

j to inclusive, represent the contacts projecting from the drum C of the controlswitch, said contacts being interconnected in three groups, the first group including] toj,

inclusive, the second group j toj and 7' inclusive, and the third group 7 ,3 and 7' to f, inclusive. These contacts engage the fixed contact-fingers c" to 0 inclusive, in the usual manner, the latter being connected to the different parts of the circuit, as shown.

The armatures of the two motors are represented as A and A The field-coils in my preferred arrangement comprise four fieldcoils, each for one of the cores of the fieldmagnet. The field-coilsof one motor are represented as F F" F F, while those of the other motor are represented as F F F and F n to M inclusive, represent the stationary contact-fingers for the segment D of one of the field commutating-swit-ches, while 0' to 0 inclusive, represent the fixed contact-fingers for the segment E of the other of the commutating-switches. Each of these segments, as clearly shown in Fig. 7. has a double row of contacts, one of which is adapted to connect the fingers, which are in turn con nected with the field-coils of one of the motors, so as to place all the coils in series, while the others are adapted to place all the coils in multiple.

It represents a resistance which I prefer to use at the first two positions of the controlswitch to allow for starting the motors in their position of rest in the old rheostatic manner. These positions, however, are not particularly material to .my invention. and with some motors might readily be dispensed with.

O, P, and Q are three resistances of smaller capacity and higher resistance than resistance R, and these I use in connection with the control of the field strength and the changes of the coupling of the various field-coils, as hereinafter described.

The current from the trolley enters through various canopy-switches and the ordinary safety devices carried by an electricrailway car to the finger c of the controldrum. The various ground connections from the system pass through the terminals H of the safety-switch, as clearly shown. In the first position of the control-switch the con tact-fingers c to 0 inclusive, are bearing on the line 1 of the control-drum development, the fingers n to a inclusive, are bearing on the line 20 of segment D, fingers 0 to 0 inclusive, are bearing on the line 23 of segment E, and the terminals H and II of safetyswitch are closed. The condition of the motors and apparatus while at this position is clearly shown in Fig. 8. The current from the trolley enters at 0', passes by contacts j and 9' to finger c thence through resistance R to blow-out coil J, thence to finger 977, com tact 7t", finger on, armature A, finger c and contact j. At this pointihe current divides, going through the eight field-coils of the two motors in multiple and also through the resistance I in multiple. The circuit from j through the field-coils F, F, F, and F is by means of contact finger c finger m contact contact 79 and finger 711 from which there is one direct connection to fieldcoil F and one connection by finger 77. which by means of the connection of the contacts on line 20 of segment D effects the connections of the other field-coils F F, and F by means of fingers n n, n, and 01 Return connections from the four said coils are to fingers n, n 71 and n" of contacts on segment D, connecting these altogether. The circuit is then to finger m to contacts 7t 7t, to finger m to the point which for convenience I have marked X. The circuit through the four field-coils of the other motor and through the resistance P from the contact 7' to the point 1 have marked X is from contact 3' to coin tactj finger 0 directly through resistance 1? to X and also to finger m contacts k and finger m to finger 0 of switch E, to coil F finger 0 being connected by the contacts on line 23 of said switch E to fingers 0 o, and 0 respectively, which are connected to the positive sides of coils F F and F respectively. The other sides of these coils are connected, respectively, to fingers 0 o, o, and 0 which are connected together by the contacts on line 23, so that from the finger 0 the current from this branch of the circuit passes to finger m contact k contact 7J5, finger m, finger o while the pointX is connected to the finger 0 so that on the third group ofj contacts the eight branch circuits are reunited, leaving by the finger 0 passing through armature A through terminals H and H to ground. It will thus be seen that the current is passed through the two armatures in series with each other and through the eight field-coils and a supplementary resistance, which are in multiple with each other, but in series with the armatures, while the main resistance R is in circuit, as well as the blow-out J. I may change this, however. The reason I have preferred to provide the resistance P in multiple with the eight field-coils is that it is a very simple method of obtaining proper field strength and efficiency both when the motors are used as series motors and as sh u nt-motors, because the resistance can be graduated so as to suit any given conditions.

At position 2 of the control-switch the only change effected is that the current passes from contact j to contact j instead of contact j whereby a portion of resistance R is out out. This is shown in Fig. 9.

At position 3 of the control-switch the circuit passes from j toj and cuts out the remaining portion of the resistance, thereby producing the combination shown in Fig. 10.

At position 4 of the control-switch finger 0 breaks contact with contact 7' all the other connections remaining the same. The

only result of this is that the circuit between the negative side of F, field-coils, and armature A and between the negative side of resistance P and A is broken, so that we have the resultant effect as shown in Fig. 11, in

which only one motor-viz., the right-hand motor-is doing useful work, although the ohmic resistance of A is in circuit. This is preferably a pass-over or reorganization position.

The next change is made by one of the field commutating-switches before the control-switch leaves its position, for it is at this point that pin f engages one of the triggers (1, whereby the segment D is thrown so that the contacts on line 21 engage fingers n to M, inclusive. The effect of this change, it will be clearly seen, is to place the four fieldeoils F, F" F, and F" in series with each other. As this is a very transitory step, and as in practice it will take place substantially simultaneously with the step which I will now describe, I have not shown it in a separate diagram. About the time, therefore, that this change is made position 5 of the controlswitch is reached, at which finger c engages with contactj finger c breaks engagement with j and finger 0 makes engagement with 7.

The result of these changes is that a shunt is establisned from contact j to contacty, to finger 0 through resistance 0, finger in, contact 7c", contact 76 finger m to field-coil F, through the fields in series, because the a fingers are on line 21 of segment D, thence through finger m, contact L contact 79, finger m finger c, contactj to contact 7' and finger 0 to armature A as before. This combination is shown and found in Fig. 12, in which it will be seen that one motor is acting as a shunt-motor with a resistance in circuit with its field, while the other motor is a series motor, the resistance P being again in multiple with its low-resistance field. The negative side of the shunt-field is connected to the negative side of the series field, so as to insure a rapid building up of the shuntmotor. This also is preferably a transitory position.

The next change is effected at the position 6 of the control-switch, the only change being that finger e engages contactj This effects a short circuit of the field-coils F F F and F and resistance P by the connection from c" to 7' and j to finger c. This is shown in Fig. 13 as another transitory position at which the car is operated by the shunt-motor only, except that the ohmic resistance of the other armature is in circuit.

In passing from position 6 of the controlswitch to position 7 thereof pin f engages one of the triggers 6, so that the segment E is moved and the o fingers are upon line 22 of segment E. Also changes are made on the control-switch because finger c loses engagement with contact j Finger c loses engagement with contact f, and finger c loses engagement with j 17 and makes engagement with contact 7. The effect of these changes is shown in Fig. 14;, which is a running position. These changes may be summarized as follows:

ICO

IIO

First. Field-coils F F F and F are placed in series with each other, and this is of course effected by the movement of segment E. This same movement places in series with the fieldcoils the resistance Q,which is connected to finger which is connected by segment E to ground.

Second. It removes the short circuit across the F fieldeoils, thereby placing F and F field-coils in series with each other, and this itdoes becauseofthe disengagementoffingers c and contactj which are the means previously present for short-circuiting the field.

Third. It maintains the con nection between the two armatures even though the short circuit of the field is removed, because finger 0 engages contact j, which by means of contact-j is in connection with finger c fingers c and 0 being connected to the opposite terminals of the two armatures. At this position the resistance P, though connected in series between the two fields, is short-circuited by the fact that 0 and e are connected together by contactsj and 3' The only change made by passing to position 8 of the control-switch is shown in Fig. 15 when the short circuit around the resistance P is removed, so that the strength of the shunt-fields is weakened. This short circuit is removed because fingers 0 and 0 are no longer connected by any of thej contacts. It may be noted at this point that both the positions shown in Figs. 14: and 15 may be used as running positions, the only difference being in the strength of the fields, as of course I prefer to have a stronger field at the first position, both because of its increased counter electromotive force, which will tend to cut down the current of the motor, and because of decreased speed due to the same cause.

Fig. 16, while not, strictly speaking, one of the indicated positions of the controller, has been shown in a separate figure, because it represents a momentary change of considerable importance in the manipulation of an effective system of this kind. This figure represents a condition of the circuits which arises when the fingers c to c are between positions 8 and 9 of the control-switch, so that the fingers are bridging. At this position fingers c, c, c, 0", 0 0 0 and 0 are respectively in engagement with contacts j',j", 7' j", 3 ,3 9' and 3' The effect of these changes, as will be readily seen without detailed information, is to short-circuit resistances O and P, so that the field strength of the motors will he suddenly increased, thereby increasing the counter eiectromotive force, so that when an instant later the circuit through the armatures is broken by disengagement of fingers 0', c and 0 contacts j, 7' and 9' respectively, the increased connter electromotive force will tend to reduce J the current flowing or in some conditions even supply a small counter-current, so as to prevent arcing on the controller-contacts.

j and This position is shown at Fig. 17, which I prefer to use only as a transitory position.

At the next position (position 10, shown in Fig. 18) the only change made is a short circuit of resistance Q, which is effected by engagement of fingers e and o with contacts This is preparatory to putting the motors into multiple as shunt-motors, and as this change is a radical one the field strength is to be at its maximum.

Position 11 is the first multiple position, and it is shown in Fig. 19. At this point finger 0 makes cont-act with f, reestablishing the circuit to A, while finger 0 makes contact with contact j, thus connecting A directly to trolley and in multiple with A. At the same position 0 engages with j, by which means the connection is made from the negative side of A to ground through contact j and finger 0 The next and last position (position 12, shown in Fig. reintroduces resistances O and Q into the field-circuit, whereby the field strength is decreased, and consequently the counter electromotive force of the motors is also decreased, so that a higher speed may be attained.

The means which I have herein described makes it possible to combine the advantages of series and shunt motors, as will be readily seen, and provides a very efficient system of control. The provision of the auxiliary resistances and their manipulation in circuit, in conjunction with the changes in connection of the field-coil windings from multiple to series and in connection with the subsequent changes in the motor-circuit, enables the field strength to be accurately controlled to meet the varying conditions of the circuit and the running requirements.

I do not wish to limit myself to the particular embodiment of my invention which I have herein shown and described, as it is obvious that many changes may be made in the minor features thereof without departing from my invention as set forth in the following claims.

Having thus described my invention, what I claim, and desire to secure by Letters Patent, is-

1. The combination with an electric motor, of a controlling-switch provided with means for shifting the armature and field-coils of the motor from series to shunt or the reverse relation, and for changingsubstantially simultaneously therewith the field-magnet windings from a relation of low resistance to one of high resistance, or the reverse.

2. The combination with an electric motor 7 having difierent field-windings, of a switch and connections for shifting the armature and field-coils of the motor from series to shunt or the reverse relation, said switch also having connections with the said field-windings whereby its operation to effect the above-described change in the armature and field-coils also changes the connection of the said windings from a relation of low resistance to a relation of high resistance.

3. The combination with an electric motor having its armatures and field-coils arranged to be connected either in series or in shunt, and its field-coil windings arranged for different resistance connections, of a switch for effecting automatically by movement thereof the series and shunt connections of the armature and field-coils, and for also shifting the connections of the field-coil windings.

4. The combination with an electric motor having its field-coils provided with a plurality of windings, of a switch having contacts and connections whereby as said switch is operated the said armature and coils are successively and automatically connected in both series and shunt relations to each other and the windings of said coils are automatically connected in both series and multiple relation.

5. The combination with an electric motor havingits field-coils provided with a plurality of windings, of a controlling and field comm utating-switch having contacts and connections whereby said field-windings maybe first placed in series with the armature and upon further movement to automatically shift the field-coils and armature to shunt relation and also shift the circuit connections of the fieldcoil. windings to increase their ohmic resistance.

6. The combination with a pair of electric motors, each of which has a plurality of fieldcoil windings and artificial resistance for connection in circuit with said windings, of a switch having contacts for connecting the armatures and field-coils of the motors in series and the field-coil windings all in multiple, and upon further movement to shift the armature and field-coils to shunt relation and the field-winding connections to series, and other cont-acts for controlling the connection and relation in circuit of said resistance, together with the necessary electrical connections.

'7. The combination of an electric motor having a plurality of field-coil windings, and artificial resistance for connection in circuit with said windings, of a controlling-switch having contacts and electrical connections for connecting the said armature in series or in shunt with said windings, together with the necessary electrical connections.

8. The combination with an electric motor having a plurality of field-coil windings, and artificial resistance for connection in circuit with said windings, of a controlling-switch having a plurality of contacts whereby the said windings maybe first placed in series with the armature and in multiple with each other and with the resistance, and subsequently,upon fu rt-her movement of the switch, to shift the connections of the field-windings from multiple to series and the relation of said windings and the armature from series to shunt, and for connecting the resistance in series with said windings and also for short-circuiting the resistance.

9. The combination with a pair of electric motors having different sets of field-coil windings, of a controlling and field con'nnutatingswitch having contacts arranged to connect successively the armatures and field-coils in series with each other, the armatu res in series and the field-coils in shunt thereto, and the armatures in multiple and the lielttcoils in shunt thereto, and other contacts operating automatically in connection with the first named to change the circuit connections of the field-coils from multiple to series.

10. The combination with a pair of electric motors having different sets of field-windings and different resistances for connection in circuit with said windings, of a controllingswitchhavinga pluralityof movablecontacts, arranged upon operation of the switch to first connect the armaturcs and fieldcoils all. in series and the field-coil windings all in multiple, secondly to connect.- the field-coil windings all in series with each other and in shunt with the arn'iatures and then to connect the armatures in multiple with the field-wiinlings in series with each other and in shunt to the armature, and also havingcontacts l'or changing the connection in circuit with the fieldwindings of the said resistances and to shortcircuit the same after the said windings have been placed in series with each other and in shunt to the armature.

11. The combination with an electric motor, of acontrolling and field com in u tating-switch having one set of movable contacts arranged to connect the armatures and field coils of the motors all in series, and then to shift the field-coils to in shunt with the armatu res, and other sets of contacts for simultaneously changing the circuit connections of theiieldcoil windings to increase the strength of the fields proportionately to the increased voltage across the terminals of the motors.

12. The combination with an electric motor, of a controlling and field commutating-switch having one set of movable contacts arranged to connect the armatures and field-coils of the motors all in series, and then to shift the field-coils to in shunt with the armatures, and other sets of contacts for simultaneously changing the circuit connections of the field coil windings to increase the strength of the fields proportionately to theincreased voltage across the terminals of the motors, together with artificial resistance for connection in circuit with said field-coils, and other contacts on the switch for cutting out or short-circuiting-the resistance subsequently to placing the motors in multiple as shunt-motors, said contacts, together with the necessary electrical connections, operating automatically by movement of the switch to effect the stated circuit changes.

13. The combination with a pair of electric motors having a plurality of field-windings and artificial resistance for connection in circuit therewith, of controlling and field commutating-switches having movable contacts arranged to first connect the motors as series motors, then to connect the motors as shuntmotors and finally to connect their arniaturcs in parallel, and other contacts operating in connection with the first-named contacts to first connect the field-windings in multiple and then in series, and also to connect in circuit therewith the resistance.

14. The combination with a pair of electric motors having a plurality of field-windings and artificial resistance for connection in cir cuit therewith, of controlling and field coinmutating-switches having a plurality of movable contacts arranged upon movement of the switch to connect the armatures of the motors in both series and parallel and the field-coils in series or in shunt to the armatures, another set having its contacts arranged to connect the field-coil windings in multiple and in series, respectively, when the motors are connected as series or as shunt motors, and other contacts controlling the relation of the resistance to said field-windings whereby said resistance may be connected in multiple with the multiple field windings, then in series with the series-connected field-windings, and subsequently short-circuited and again reconnected in series with the field-windings.

15. The combination with a pair of electric motors having different sets of field-windings, of a controlling and field commutatingswitch provided with movable contacts arranged to first connect the motors as series motors and the field-windings thereof for low resistance and for subsequently connecting the motors as shunt-motors and the fields for high resistance, said changes being all automatically effected by movement of said switch.

16. The combination with a pair of electric motors having differentsets of field-windings and artificial resistance for connection in circuit with said field-windings, of controlling and commutating switches having movable contacts relatively arranged to first connect the motors as series motors, then as shunt-motors, and finally with their armatures in parallel, and other contacts operating in connection with the first-named contacts to first connect the field-windings and resistance for low ohmic resistance and subsequently for high ohmic resistance and finally to control the artificial resistance to first decrease the ohmic resistance of the fields preparatory to connecting the armatures in multiple, and again, subsequently to the mulliple connection, toincrease the ohmic resistance of the fields.

17. The combination with a pair of electric motors having each diiferent field-windings and artificial resistance for connection in circuit therewith, of a controlling and field comm utating switch having relatively arranged movable contacts for connecting the motors as series motors with their field-windings in multiple with each other and with said resistance, and for subsequently, upon further movement of the switch to connect the field-windings of one motor in series with each other and with the resistance in shunt to the armature.

18. The combination with a pair of electric motors having each different field-windings and artificial resistance for connection in circuit therewith, of a controlling and field com mutating switch having relatively arranged movable contacts, and electrical connections which first connect the motors as series motors with their field-windings in multiple with each other and with said resistance and to subsequently connect the field-windings in series with each other and with the resistance in shunt to the armature and also maintain at such time the seriesmultiple connection of the elements of the other motor.

19. The combination with a pairof electric motors each having a plurality of field-coil windings and artificial resistance for connection in circuit with said windings, of controlling and field coinmutating-switches having contacts which first connect the motors as series motors with the field-coil windings all connected in multiple with each other and with said resistance, and other contacts arranged relatively to the first-named contacts to subsequently shift the field-coils of one motor to in shunt with its armature and the windings of said coils to series connection with each other and to the negative side of the field-windings of the other motor.

20. The combination with a pair of electric motors each having a plurality of field-coil windings and artificial resistance for connection in circuit with said windings, of a controlling and field comm utating-switch having contacts for connecting the motors as series motors with the field-coil windings all connected in multiple with each other and with said resistance, other contacts arranged respectively to the first-named contacts for subsequently shifting the field-coils of one motor to in shunt with its armature, and the windings of said coils to series connection with each other and to the negative side of the field-windings of the other motor, and other cooperating contacts which upon further operation of the switch short-circuit the field having the multiple-connected field-windings and then connect said windings in series with each other and in shunt to their armature, together with electrical connections whereby the described circuit changes are automatically effected.

21. The combination with a pair of electric motors having each a plurality of field-coil windings and artificial resistance for connection in circuit with said windings, of controlling and field commutating-switches having contacts for connecting the armatures in series and the field coils in shunt thereto with their windings all in series with each other and with the resistance, and other cooperating contacts for subsequently connecting the arm atu res in multiple, and still other contacts operating intcrnicdiately of the two sets of contacts first mentioned for short-circuiting the said resistance preparatory to connecting the armatures in multiple.

22. The combination with an electric motor having a 1i lnrality of field-coil windings, of a controller having contacts for changing the motor from a series to a shunt motor, and als field commntating-contacts operating relatively to the first-named contacts to change the field-coil-wil'iding connections from multiple to series as the motors are changed from series to shunt motors.

23. The combination with electric motors having each a plurality of field-coil windings and artificial resistance for connection in circuit with said motors, of controlling and field commutating-switches having movable contacts for connecting the field-coils and armatu res of the motors all in series with each other and with said resistance, contacts for gradually cutting out said resistance as the switch is further operated and other contacts for subsequently connecting the windings of both fields in series with each other and for shifting the field-coils to in shunt with the armatures.

24. The combination with a pair of electric motors whose field-coils are each provided with a plurality of windings and artificial resistance for connection in circuit therewith, of a switch having contacts for changing the circuit connections of the motor-armaturcs and field-coils as a whole and other contacts arranged to operate in conjunction with the first-named contacts to successively connect the field-coil windings all in multiple with each other and with the resistance, and other contacts for subsequently alternately changing the connection of said resistance to decrease and increase the ohmic resistance of the field-coils.

25. The combination with a pair of electric motors having their field-coils each provided with a plurality of field-windings, and artificial resistance for connection in circuit with said windings, of a controlling-switch having contacts for changing the circuit connections or relations of the motor-armatures and fieldooils, and other connections operating in conjunction therewith, to first connect the fieldcoil windings of both motors all in multiple wit-h each other and with said resistance and subsequently to shift the windings of the fieldcoils of one of the two motors to a series connection with each other and effect a connection between the negative side thereof and the negative side of the winding of the fieldcoil of the other motors, and still other contacts which by further movement of the switch connect the field-coil windings of the second motor all in series with each other and with those of the first motor.

26. i no combination with a motor-controllingswitch for varyingthe circuit connections of the motor elements as a whole, of a field commutating-switch for changing the circuit connections of the field-windings of the motor elements, and connections whereby the field-coil switch operated automatically at predetermined positions of the controllerswitch.

27. Means for controlling electric motors, comprising a switch for effecting a different connection of the motor elements as a whole, and a second switch for varying the circuit connections of the field-coil windings, and connections between said switches whereby the second switch is auton'iatically operated by the operation of the first switch at predetermined positions of the latter.

28. The combination with a controllingswitch for varying the circuit connections of the motor elements as a whole, of a field commutatingmvitch, and gear connections between the two switches, arranged to operate the second switch by movement of the first at predetermined times.

29. Means for controlling a plurality of electric motors consisting of a switch for varying the circuit relations of the motor-armatures and field -ooils, a field conunutatingswitch for the field-windings of each motor, and connections whereby the field commutating switch or switches are automatically operated at predetermined movements of the first-mentioned switch.

30. Means for controlling a pair of electric motors comprising a switch arranged to elfect different; circuit connections of the motor arinz'itures and field-coils, independent field cominntating-switches, one for each motor, arranged to effect different connection of the field-coil windings, and means whereby said field-coil switches are successively automatically operated at predetermined positions of the first-mentioned switch.

31. Means for controlling electric motors, having each a plurality of field-coil windings, comprising a rotary shaft carrying a series of contacts, a series of stationary brushes or fingers for engagement with said contacts and connected in circuit with the motor elements, and independently-mounted contacts, with corresponding brushes or fingers connected in circuit with the different windings of the field-magnet coils, together with connections whereby said independentlymounted contacts are actuated automatically upon pre determined movement of the said rotary shaft and its contacts.

32. Means for controlling electric motors, having each a plurality of field-coil windings or post and provided with contacts arranged to differently connect in circuit the field-coil windings, gears actuated by the first-named switch and means carried by said segments for intermittent operative engagement with the said gears.

33. The combination with the rotary controlling-switch, of a shaft or support positioned adjacent thereto, a pair of switch-seg ments loosely sleeved to said shaft or support, gear-wheels actuated by the controllingswitch and having pins or projections, and springs connected to said segments and arranged to act in a position to either side of a position central to the operative positions of the segments.

34. The combination with the rotary controlling-switch, of a shaft or support adjacent thereto, a switch-segment loosely sleeved to the said shaft or support, gear-wheels actuated by said controller and having pins or projections, an arm on the segment arranged for intermittent engagement with said pins or projections, and a spring connected to the said segment to operate upon the same in different positions therefor.

35. In a controller for electric motors, the combination with a rotary switch arranged to change the motor-circuits, of a safety-switch connected in circuit between said controller and one side of the main line, said switch comprising one or more stationary terminals, cooperating movable terminals, a piston carryin g said movable terminals, an electromagnet energized by or from the main circuit and acting on said piston to normally hold the safetyswitch closed, a spring acting on said piston in opposition to the magnet, and a cam device on the shaft of the rotary switch arranged to impinge and act upon the said piston when the rotary switch is moved to off position.

In testimony whereof I have afiixed my signature in presence of two witnesses.

BENNET CARROLL SHIPMAN.

Witnesses:

H. W. MoKALir, W. F. SHROYER. 

